Astrophysics (Index)About

computational astrophysics

(astrophysical study through computer modeling)

Computers are heavily used to model astrophysical phenomena, and computational astrophysics is an umbrella-term for the specific computational physics methods relevant to and/or tailored to astrophysics. Among model targets are stars, star formation, disks (e.g., protoplanetary disks), galaxies, galaxy formation, galaxy clusters, black holes, compact objects, and cosmological simulations of a significant portion of a universe. Methods include N-body simulation, semi-analytic model, adaptive mesh refinement, smoothed-particle hydrodynamics, and hydrodynamics models. See list of software and list of codes for example software.


(simulations)
Further reading:
https://en.wikipedia.org/wiki/Computational_astrophysics
http://www.scholarpedia.org/article/Computational_astrophysics
https://indico.ictp.it/event/a06220/session/18/contribution/10/material/0/1.pdf
http://popia.ft.uam.es/ACO/files/04PhysicalProcesses.pdf
https://lsa.umich.edu/astro/research/computational-astrophysics.html
https://zingale.github.io/comp_astro_tutorial/intro.html
https://www.astro.physik.uni-potsdam.de/~htodt/ca/index.html

Referenced by pages:
adaptive refinement tree (ART)
cosmological simulation
LA-COMPASS
numerical relativity (NR)

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